Manual valve actuators

Manual actuators are the most common type of valve actuators. Manual actuators are capable of placing the valve in any position but don't allow automatic operation.

Manual actuators include a handwheel connected to the valve stem either directly or through gears. Use of gears makes it easier to open or close the valve. However, several turns of gears are necessary for one full turn of the valve stem. This prolongs the opening and closing time of large sized valves.

Valves with handwheels directly fixed to the stem present the advantage of binding (sticking) when exposed to high operating temperatures. At these elevating temperatures, opening and closing of the valve becomes a rather tedious task.

Figure 1 - Manual valves with handwheel fixed to the stem

Electric motor valve actuators

Electric motors allow manual operation (through a handwheel), semi-automatic operation (when the motor is started by a control system) and automatic operation of the valve. Automatic operation is achieved by connecting a motor to valve stem through a gear system. Use of the gear train allows to reduce motor speed and consequently to increase torque at the valve stem. Manual handwheel is also engaged in the gear train.

Motors are typically used for open-close (ON-OFF valves) duty. Automatic stoppage of the motor at fully open and fully closed valve positions is achieved through limit switches. Limit switches are activated either physically through the movement of the valve or torsionally by the motor torque.

Figure 2 - Typical electric motor valve actuator

Pneumatic valve actuators

Pneumatic actuators provide for automatic or semi-automatic valve operation. They work by 'translating' an instrument air signal into valve stem motion by air pressure acting on a diaphragm or piston connected to the stem. The differential pressure across the diaphragm moves the valve stem. They are used when modulating (throttling) of the pumped fluid is necessary.

Pneumatic valves are also equipped with handwheels, limit switches as well as other instrument air related hardware, like for example air bottle and air filter regulator.

Figure 3 - Typical pneumatic type valve at a steam line

Hydraulic actuators

Similar to pneumatic actuators, hydraulic actuators enable semi-automatic and automatic operation. These actuators use a piston to convert a hydraulic signal pressure into valve stem motion. Hydraulic actuators use a pressurized liquid (typically oil is used as hydraulic fluid) on one or both sides of a piston to provide the force required to position the valve.

Solenoid actuated valves

Solenoid valves are typically used for automatic control of the hydraulic fluid to direct either opening or closing of the valve. They are mostly installed at small size lines, typically up to 1'' size. Solenoid actuators have a magnetic slug attached to the valve stem. The force to move the valve comes from the magnetic attraction that is developed between the slug on the valve stem and the coil of the electromagnet in the valve actuator. Solenoid actuated valves may be also equipped with manual override functionality in order to allow manual positioning of the valve for as long as the override is manually positioned.

Figure 4 - Typical solenoid actuated valve

Self-actuated valves

As their name implies, self-actuated valves make use of the system fluid itself to position-move the valve. No external power source is necessary for the operation of these valves. Typical examples of self-actuated valves are relief valves, safety valves and check valves.